AMD while building on the long-lived legacy of the Geode LX processor family is planning the next generation of long-life Embedded Processor platforms. Adding what they have learned with their first attempt at redesigning the LX800, the AMD Embedded APU family of the G-Series and R-Series processors. AMD Embedded G-Series APU Platform was the world’s first combination of low-power CPU and advanced GPU integrated into a single SOC for embedded devices. Offering low power consumption but still has exceptional processor performance and graphics to match. This venture showed that multi-core processors will be needed in the embedded in the future, as demand for the T40 group of processors was higher than the single-core T16 version. While AMD struggled to get embedded and industrial products to change to the T16 G-series processor, this was designed to be the ideal replacement for the Geode LX800 processor.
AMD with the first generation of the AMD Ryzen™ Embedded V-Series processor family, brought the “Zen” Core and the “Vega” GPU architectures together into a single SOC processor. This new SOC set a new standard in processing power for next-generation embedded systems and Industrial computer designs. AMD followed the V-Series Processor family with the AMD Ryzen™ Embedded R-Series processor family. The R-Series Processors are targeted to mid-range systems, not requiring extra CPU and GPU performance.
Delivering discrete-GPU caliber graphics and multimedia processing, and compute performance up to 3.61 TFLOPS with thermal design power (TDP) as low as 12W and as high as 54W, AMD Ryzen Embedded V1000 SoCs equip system designers to achieve new levels of processing efficiency and design versatility. An industrial temperature processor option is also available that can operate in temperatures as low as -40°C.
The AMD Ryzen™ Embedded R1000 processor brings together the powerful performance of the pioneering “Zen” CPU and “Vega” GPU architectures into the R-series SOC. The Ryzen Embedded R1000 brings multi-threaded performance, for the first time, to the R-series of processors.
With up to 3x generational performance improvement per watt, and 4x better CPU and graphics performance per dollar than the competition, the R1000 is an ideal fit for embedded applications. Ryzen Embedded R1000 delivers a new class of performance in a seamlessly integrated single-chip solution. R1000 SoCs are platform compatible with the Ryzen Embedded V1000 Series and enable system designers to target efficient designs between 6W to 25W.
AMD set the AMD Ryzen™ Embedded V-Series processors as high-performance models, offering performance graphics and powerful CPU options. While the AMD Ryzen™ Embedded R-Series processors are mid-range processors designed to be the workhorse models for budget-friendly product systems.
Starting with the AMD Ryzen Embedded V1000 and AMD Ryzen Embedded R1000 these are the processors that are currently available (as of 5/5/2023, see AMD’s site for the latest information)-
CPU model | Model | Line | TDP | CPU Base Freq. | CPU Max Freq. | # of CPU Cores | # of Threads | # Displays | Junction Temp Range | Last Time Buy | Reccomended for new design |
V1807B | AMD Ryzen™ Embedded V1807B with Radeon™ Vega 11 Graphics | V-Series V1000 | 35-54W | 3.35GHz | 3.8GHz | 4 | 8 | 4 | 0-105°C | 2028 | No |
V1756B | AMD Ryzen™ Embedded V1756B with Radeon™ Vega 8 Graphics | V-Series V1000 | 35-54W | 3.25GHz | 3.6GHz | 4 | 8 | 4 | 0-105°C | 2028 | No |
V1605B | AMD Ryzen™ Embedded V1605B with Radeon™ Vega 8 Graphics | V-Series V1000 | 12-25W | 2GHz | 3.6GHz | 4 | 8 | 4 | 0-105°C | 2028 | No |
V1404I | AMD Ryzen™ Embedded V1404I with Radeon™ Vega 8 Graphics | V-Series V1000 | 12-25W | 2GHz | 3.6GHz | 4 | 8 | 4 | -40-105°C | 2028 | No |
V1202B | AMD Ryzen™ Embedded V1202B with Radeon™ Vega 3 Graphics | V-Series V1000 | 12-25W | 2.3GHz | 3.2GHz | 2 | 4 | 4 | 0-105°C | 2028 | No |
V1780B | AMD Ryzen™ Embedded V1780B | V-Series V1000 | 35-54W | 3.35GHz | 3.6GHz | 4 | 8 | None | 0-105°C | 2028 | Yes |
V1500B | AMD Ryzen™ Embedded V1500B | V-Series V1000 | 12-25W | 2.2GHz | 4 | 8 | None | 0-105°C | 2028 | Yes | |
R1600 | AMD Ryzen™ Embedded R1600 | R-Series R1000 | 12–25W | 2.6GHz | 3.1GHz | 2 | 4 | None | 0-105°C | 2029 | Yes |
R1606G | AMD Ryzen™ Embedded R1606G with Radeon™ Vega 3 Graphics | R-Series R1000 | 12-25W | 2.6GHz | 3.5GHz | 2 | 4 | 3 | 0-105°C | 2029 | No |
R1505G | AMD Ryzen™ Embedded R1505G with Radeon™ Vega 3 Graphics | R-Series R1000 | 12-25W | 2.4GHz | 3.3GHz | 2 | 4 | 3 | 0-105°C | 2029 | No |
R1305G | AMD Ryzen™ Embedded R1305G with Radeon™ Vega 3 Graphics | R-Series R1000 | 8-10W | 1.5GHz | 2.8GHz | 2 | 4 | 3 | 0-105°C | 2029 | No |
R1102G | AMD Ryzen™ Embedded R1102G with Radeon™ Vega 3 Graphics | R-Series R1000 | 6W | 1.2GHz | 2.6GHz | 2 | 2 | 2 | 0-105°C | 2029 | No |
AMD Ryzen™ Embedded V2000 & AMD Ryzen™ Embedded R2000
The AMD Ryzen™ Embedded V2000 processor family is built on the groundbreaking “Zen 2” x86 core architecture with innovative 7nm process technology and optimized high-performance Radeon™ graphics in an SoC design. The AMD Ryzen™ Embedded V2000 processors are designed to be low-power performance system replacements, targeted to POS systems, Thin Clients, Digital display systems, Kiosk and interactive advertising displays
Featuring up to 8 cores and 16 threads, the V2000 Series provides unprecedented performance levels, significant design enhancements, and incredible power efficiency for embedded applications such as Thin Client, Mini PC, Edge and other systems. AMD Ryzen™ Embedded V2000 family of processors are designed to meet the performance processing requirements of a wide range of high-end embedded applications targeted to the performance end of the market.
While the AMD Ryzen™ Embedded R2000 Series SoCs boost the Ryzen™ Embedded mid-range processor portfolio to new heights by bringing together the “Zen+” x86 core architecture with high-performance AMD Radeon™ graphics. Compared to the legacy R1000 Series, the R2000 Series provides up to 2X the CPU core count, Radeon™ graphics supporting up to 4 independent 4K displays and up to 2X the I/O connectivity targeting Industrial and Robotics Systems, Machine Vision, IoT, Thin Clients and more.
With thermal design power (TDP) spanning from 12W to 54W, AMD Ryzen™ Embedded R2000 Series SoCs provide thermal agility for compact system designs to help streamline design efficiencies and BOM costs. They provide pin-to-pin package compatibility and a common software foundation with legacy AMD Ryzen™ Embedded R1000 and V1000 Series SoCs while delivering significant performance and connectivity boosts from previous R-Series families.
This is a listing of the current AMD Ryzen™ Embedded V2000 Series and AMD Ryzen™ Embedded R2000 Series models (as of 5/5/2023, see AMD’s site for the latest information)
CPU model | Model | Line | TDP | CPU Base Freq. | CPU Max Freq. | # of CPU Cores | # of Threads | # of GPU Cores | # Displays | Junction Temp Range | Last Time Buy | Recommended for new designs |
V2748 | AMD Ryzen™ Embedded V2748 with Radeon™ Graphics | V-Series V2000 | 35-54W | 2.9GHz | 4.25GHz | 8 | 16 | 7 | 4 | 0-105°C | 2030 | Yes |
V2718 | AMD Ryzen™ Embedded V2718 with Radeon™ Graphics | V-Series V2000 | 10-25W | 1.7GHz | 4.15GHz | 8 | 16 | 7 | 4 | 0-105°C | 2030 | Yes |
V2546 | AMD Ryzen™ Embedded V2546 with Radeon™ Graphics | V-Series V2000 | 35-54W | 3GHz | 3.95GHz | 6 | 12 | 6 | 4 | 0-105°C | 2030 | Yes |
V2516 | AMD Ryzen™ Embedded V2516 with Radeon™ Graphics | V-Series V2000 | 10-25W | 2.1GHz | 3.95GHz | 6 | 12 | 6 | 4 | 0-105°C | 2030 | Yes |
R2314 | AMD Ryzen™ Embedded R2314 with Radeon™ Graphics | R-Series R2000 | 12-35W | 2.1GHz | 3.50GHz | 4 | 4 | 6 | 3 | * | * | Yes |
R2312 | AMD Ryzen™ Embedded R2312 with Radeon™ Graphics | R-Series R2000 | 12-35W | 2.7GHz | 3.50GHz | 2 | 4 | 3 | 3 | * | * | Yes |
R2544 | AMD Ryzen™ Embedded R2544 with Radeon™ Graphics | R-Series R2000 | 35-54W | 3.35GHz | 3.70GHz | 4 | 8 | 8 | 4 | * | * | Yes |
R2514 | AMD Ryzen™ Embedded R2514 with Radeon™ Graphics | R-Series R2000 | 12-35W | 2.7GHz | 3.50GHz | 4 | 8 | 8 | 3 | * | * | Yes |
* – Pre-production Information, Final specifictions not available
AMD Ryzen™ Embedded V3000 & AMD Ryzen™ Embedded 5000
Finally, AMD Ryzen™ Embedded V3000 SOC processors and AMD Ryzen™ Embedded 5000 processors (coming soon) targeting headless applications.
The AMD Ryzen™ Embedded V3000 processors bring the high-performance “Zen 3” CPU x86 core architecture to the V-Series portfolio, and deliver new levels of processing power, thermal efficiency and high-speed I/O connectivity in a compact, cost effective BGA footprint. Providing 24/7 reliability and seamlessly scalable CPU performance for a wide range of storage, networking and edge systems. AMD Ryzen™ Embedded V3000 processors are optimized for enterprise reliability in 24×7 operating environments with demanding workload requirements.
AMD Ryzen™ Embedded 5000 Series processors deliver the high-performance “Zen 3” x86 CPU core architecture to the midrange AMD embedded processor portfolio – optimized for enterprise-grade switching and firewall applications requiring an exact balance of compute performance, reliability and power efficiency in a compact footprint.
With scalability up to 16 cores/32 threads and thermal design power (TDP) profiles spanning from 65W to 105W, AMD Ryzen™ Embedded 5000 processors are ideally suited for space and thermally constrained rackmount and blade systems targeted for enterprise networking security.
This is a listing of the current AMD Ryzen™ Embedded V3000 Series and AMD Ryzen™ Embedded 5000 Series models (as of 5/5/2023, see AMD’s site for the latest information)
CPU model | Model | Line | TDP | CPU Type | CPU Base Freq. | CPU Max Freq. | # of CPU Cores | # of Threads | PCIe® Lanes | Junction Temp Range | Last Time Buy | Recommended for new designs | |
V3C14 | AMD Ryzen™ Embedded V3C14 | V-Series V3000 | 15W | Zen 3 | 2.3GHz | 3.8GHz | 4 | 8 | 20L Gen4 | 0-105°C | 2032 | Yes | |
V3C16 | AMD Ryzen™ Embedded V3C16 | V-Series V3000 | 15W | Zen 3 | 2GHz | 3.8GHz | 6 | 12 | 20L Gen4 | 0-105°C | 2032 | Yes | |
V3C18I | AMD Ryzen™ Embedded V3C18I | V-Series V3000 | 15W | Zen 3 | 1.9GHz | 3.8GHz | 8 | 16 | 20L Gen4 | -40C-105°C | 2032 | Yes | |
V3C44 | AMD Ryzen™ Embedded V3C44 | V-Series V3000 | 45W | Zen 3 | 3.5GHz | 3.8GHz | 4 | 8 | 20L Gen4 | 0-105°C | 2032 | Yes | |
V3C48 | AMD Ryzen™ Embedded V3C48 | V-Series V3000 | 45W | Zen 3 | 3.3GHz | 3.8GHz | 8 | 16 | 20L Gen4 | 0-105°C | 2032 | Yes | |
5950E | AMD Ryzen™ Embedded 5950E Processor | Embedded 5000 Series | 105W | Zen 3 | 3.05Ghz | 3.4GHz | 16 | 32 | 24L Gen4 | * | * | Yes | * – Pre production Informaiton not aviliable |
5900E | AMD Ryzen™ Embedded 5900E Processor | Embedded 5000 Series | 105W | Zen 3 | 3.35GHz | 3.7GHz | 12 | 24 | 24L Gen4 | * | * | Yes | * – Pre production Information not available |
5800E | AMD Ryzen™ Embedded 5800E Processor | Embedded 5000 Series | 65-105W | Zen 3 | 3.4GHz | 3.7GHz | 8 | 16 | 24L Gen4 | * | * | Yes | * – Pre production Information not available |
5600E | AMD Ryzen™ Embedded 5600E Processor | Embedded 5000 Series | 65W | Zen 3 | 3.3GHz | 3.6GHz | 6 | 12 | 24L Gen4 | * | * | Yes | * – Pre production Information not available |
SOM Modules:
The SOM-6872 is a COM Express Type 6 Compact module equipped with the AMD Ryzen™ Embedded V2000 SoC. This module delivers excellent performance and supports 8 x cores, 16 x threads, turbo boost (up to 4.25GHz), and 4 x independent 4K displays. Featuring built-in I/O interfaces and facilitates excellent graphic performance without requiring additional graphics cards.
The SOM-5871 is based on the AMD Ryzen Embedded V1000 CPU family. This COM-Express Basic SOM is equipped with the latest and first 14nm AMD Ryzen Embedded V1000 Processor (12-54W TDP) with up to four cores and eight threads. The AMD “Zen” core micro-architecture on the new COM Express (PICMG COM.0) R3.0 Type
6 basic module provides high computing power, and advanced graphics performance.
SBC Boards:
Coming soon– The de next-V2K8 is the smallest Single board computer powered by the AMD RYZEN™ V2000 embedded Processor family available.
The de next-V2K8 has a foundation of high-performance AMD Radeon™ graphics and 7nm processing technology. This CPU is integrated into an extremely small SBC 3.31″ x 2.17 inches(86 x 55 mm) FEMTO-ITX sized SBC board containing powerful I/O features and expansion options, while also maintaining the power processing power and efficiency need in small applications.
The PICO-V2K4 is an AMD RYZEN™ V2000 Embedded Processor-based Pico-ITX Board.
The AMD Ryzen™ Embedded V2000 processor family is built on the groundbreaking “Zen 2” x86 core architecture with innovative 7nm process technology and optimized high-performance Radeon™ graphics in an SoC design. Offering 2x generational uplift in performance per watt and 15% more instructions per clock, doubling the Core count of the AMD Ryzen Embedded V1000 Zen processors. Offering 4K60 10b Video Decode or Encode from the integrated Radeon graphics processor. The Radeon Graphics Compute Unit Count is 6 or 7 depending on CPU.
Coming soon – The MIO-5376 is an AMD RYZEN™ R2000 Embedded Processor based 3.5″ SBC Board.
The AMD Ryzen™ Embedded R2000 processor family is built on the groundbreaking “Zen 2” x86 core architecture with innovative 7nm process technology and optimized high-performance Radeon™ graphics in an SoC design. Offering 2x generational uplift in performance per watt and 15% more instructions per clock, doubling the Core count of the AMD Ryzen Embedded V1000 Zen processors. Offering 4K60 10b Video Decode or Encode from the integrated Radeon graphics processor. The Radeon Graphics Compute Unit Count is 6 or 7 depending on CPU.
Coming soon – The GENE-R2K6 is an AMD RYZEN™ R2000 Embedded Processor based 3.5″ SBC Board.
The AMD Ryzen™ Embedded R2000 processor family is built on the groundbreaking “Zen 2” x86 core architecture with innovative 7nm process technology and optimized high-performance Radeon™ graphics in an SoC design. Offering 2x generational uplift in performance per watt and 15% more instructions per clock, doubling the Core count of the AMD Ryzen Embedded V1000 Zen processors. Offering 4K60 10b Video Decode or Encode from the integrated Radeon graphics processor. The Radeon Graphics Compute Unit Count is 6 or 7 depending on CPU.
The AIMB-229 is a Mini-ITX motherboard based on the AMD Ryzen™ Embedded V2000 SOC processor that delivers superior graphics and computing performance.
Designed with comprehensive I/O and four 4K display outputs, AIMB-229 is ideal for multi-display applications such as digital surveillance, digital signage, electronic gaming machines, and thin client operations. Equipped with WISE-PaaS/DeviceOn remote management software, AIMB-229 provides the ideal platform that not only reduces development costs but also enhances management efficiency.
Embedded Server:
The PICO-V2K4-SEMI is an Embedded Server powered by the AMD Ryzen™ Embedded V2000 Series Processor platform. Boasting up to 8 cores and 16 threads, 64GB onboard NVMe storage, and 2.5 GbE LAN with Dual 4k Display outputs